The cardiac cycle

Question 1

What is the function of the atria as a pump?

Answer 1

Acts as a priming pump to ensure maximum ventricular volume, increases efficiency of heartbeat

Question 2

Why does the left ventricle have a thicker muscular wall?

Answer 2

Systemic circulation has 6x higher resistance, so to keep pulmonary and systemic flow the same, must generate 6x higher pressure.

Question 3

Where does the heart tap on the chest wall during systole?

Answer 3

5th intercostal space

Question 4

Why does the heart undergo a twisting motion when it contracts?

Answer 4

Alternating orientation of the subendocardial and subepicardial myocytes

Question 5

What is the role of papillary muscles?

Answer 5

Attached to cusps of AV valves via chordae tendinae and contract to prevent inversion of these valves following ventricular systole

Question 6

What causes valves to open/close?

Answer 6

Pressure gradient

Question 7

Describe the state of both valves in isovolumetric phase, why?

Answer 7

Both closed
Ventricular pressure sufficient to close inlet but not enough to open outlet valve so avoid backflow and secure stroke volume.

Question 8

What happens if you have incompetent valves?

Answer 8

Valves don’t close fully so backflow can cancel some forward flow (heart failure)

Question 9

What happens in stenosis of valves?

Answer 9

Excessive calcification/atherosclerotic degranulation

Valves can’t fully open so more pressure overcome narrowing, heart grows and potentially heart failure

Question 10

What causes 1st and 2nd heart sound?

Answer 10

S1 lub = closure of AV valve

S2 dub = closure of aortic and pulmonary valves

Question 11

Describe course of opening/closing of AV and SL valves

Answer 11

AV valve open for ventricular filling, for isovolumetric contraction they SL and AV both closed.
Pressure rises then SL valves open.
Isovolumetric relaxation, AV and SL both closed.

Question 12

What happens to volume and pressure in isovolumetric phase?

Answer 12

Volume constant but changes in pressure due to contracting/relaxing ventricle

Question 13

What happens in ventricular diastole?

Answer 13

1) Chamber isovolumetric
AP has ended and pressure is falling
Pressure: artery>ventricle>atria (no flow into ventricles from atria)

2) Full recoil of ventricles as they’re relaxed
Pressure: Artery>atria>ventricles so blood flow into ventricles via AV valves

Question 14

What happens in atrial systole?

Answer 14

Wave of depolarisation emitted from SAN causes atrial contraction forcing remaining blood into ventricles via AV valves

Question 15

Why do atrial cells contract simultaneously?

Answer 15

Have many GJs which allow depolarisation to pass form one cell to another(cells arranged as syncytium) chemical coupling

Question 16

Why do atria contract before ventricles, why is this important?

Answer 16

Annulus fibrosus insulates atria from ventricle electrically

Ventricles filled before ejecting blood

Question 17

What happens to depolarisation conduction wave from AVN?

Answer 17

Conducted via bundle of His and Purkinje fibres to apex of ventricles where it sweeps from bottom to top to initiate V systole

Question 18

What happens in ventricular systole?

Answer 18

1) Isovolumetric contraction as ventricles not pressurised enough to open SL valves (both SL and AV closed)
Increase in ventricular pressure however
Pressure: Artery>ventricle>atria

2)Pressure in ventricle exceeds pressure in aorta (80mmHg), flow out of SL valves down pressure gradient, ventricular volume falls

Question 19

What follows wave of contraction, why is it important?

Answer 19

Relaxation phase, allows chambers to fill properly before another heart beat

Question 20

How does most blood pass from atria to ventricles?

Answer 20

Passively

Question 21

What causes dicrotic notch?

Answer 21

Closure of aortic valve

Question 22

What is CVP?

Answer 22

Pressure that fills the heart

Question 23

What 3 times during the cardiac cycle does central venous pressure increase?

Answer 23

Atrium contracts
Atrium collects blood
AV valve shuts

Question 24

What is the jugular venous pressure, why is it important?

Answer 24

Reflects right atrial pressure
best estimated from right internal jugular vein
has the most direct channel into the atrium

Question 25

How does Jugular venous pressure change?

Answer 25

Atrial systole, JVP and thus CVP increase (A wave)

Then as AV valves close (ventricular systole) blood bulges into atrium so short increase in JVP (C wave)

Atrium relaxes so JVP decreases (X descent)

Then atrial fill gently (JVP increases) ( V wave) until AV valve opens (Y descent)

Question 26

What does area of pressure volume loop represent?

Answer 26

Work done

Question 27

Why can’t you measure cardiac output from pressure volume loop?

Answer 27

Time is not shown, don’t know heart rate

Question 28

What does heart do for most of cardiac cycle?

Answer 28

Diastole/filling

Question 29

Why is synchronisaiton of cardiac myocytes important?

Answer 29

Produces stronger response, coordinated and regulated electrical excitation = efficient pumping

Question 30

What is RMP of SAN cells?

Answer 30

-55mV, though unstable (from around -50 to -70 to threshold of -40 to -55)

Question 31

How long is excitation delayed for as it reaches AVN?

Answer 31

0.1 secs

Question 32

Describe delay from SAN to atria, apex and ventricles

Answer 32

0. 04-0.06
1. 16
2. 20-0.22

Question 33

At resting heart rate of 60bpm how much time is spent in systole and diastole, how does this change with increasing heart rate?

Answer 33

Systole: 1/3
Diastole: 2/3
More time spent in systole

Question 34

What are the two other heart sounds that can be heard?

Answer 34

S3 - mitral valve open blood rushes into ventricles

S4 - after atria contract (pathological)

Question 35

How does diastole and systole change with increased heart rate?

Answer 35

Both decrease, systole less so

Question 36

How does length of cardiac cycle change with slower heart beat?

Answer 36

Longer

Question 37

When does preload refer to?

Answer 37

Stretching load just before systole at end of diastole

Question 38

What is the best estimate for preload, EDV or EDP?

Answer 38

EDV

Question 39

Does the afterload include the preload?

Answer 39

Yes

Question 40

How does very high heart rate affect stroke volume?

Answer 40

Reduces it (less filling time)

Question 41

How does cardiac output change after standing up?

Answer 41

Decreases by 25% then compensated by baroreceptor reflex

Question 42

What increases venous return to right heart?

Answer 42

Arterioles dilating
Venules dilating (constrition would cause blood to stay in microcirculation)

Question 43

True or false, cardiac output is a measure of both ventricles together

Answer 43

False, output of each ventricle per minute

Question 44

What is intrinsic discharge of SAN?

Answer 44

100bpm

Question 45

At what rate does depol spread from SAN?

Answer 45

1m/sec

Question 46

What do calcium blockers do to AVN AP?

Answer 46

Decrease amplitude and increase duration

Question 47

Most Ca2+ for excitation contraction is from ECF, yes or no

Answer 47

No

Question 48

What is the difference in Ca2+ conc in cytoplasm and ECF at rest?

Answer 48

10000 more in myoplasm

Question 49

Where does depolarisation spread the fastest?

Answer 49

Purkinje fibres

Question 50

What is the Fick principle?

Answer 50

VO2 = CO(Ca-Cv)

VO2 = rate of O2 uptake

CO = cardiac output

Ca = Concentration of O2 in arterial blood

Cv = Concentration of O2 in venous blood leaving the organ

Question 51

When is coronory flow maximum?

Answer 51

Isovolumetric relaxation (pressure in aorta high, ventricle wall not contracting)

Question 52

When do heart sounds occur in cardiac cycle?

Answer 52

In isovolumetric filling phase and isovolumetric relaxation (at the start)